DE60320359T2 - Optical pickup actuator and optical recording / reproducing apparatus and method of using the same - Google Patents

Description

The The present invention relates to an actuator for an optical pickup.

in the In general, optical pickups for optical recording and / or Reproduction devices for recording and / or reproducing Information used on an optical disc, with the disc not touched will, while the scanner along a radial direction of the optical Disc moves. Optical scanners include an actuator for one optical scanner for driving an objective lens during tracking and Focusing directions of the optical disc to a point of light to a desired To radiate track of the optical disc.

at portable devices such as notebook computers an optical recording and / or reproducing apparatus slim and easily manufactured. The for the installation of an entire Recording and / or playback system available space of the portable devices is limited. Thus, an actuator for an optical scanner, that is used in portable devices, be slim.

at In portable devices, an optical scanner includes a mirror for reflecting incident light to an objective lens. To reduce the distance between the objective lens and the The reflection mirror of the optical scanner became asymmetrical Actuator for proposed an optical scanner, wherein the drive axle of the Actuator of the optical pickup and an optical axis of the objective lens are arranged differently from each other to slim the optical scanner close.

1 Fig. 12 is a perspective view schematically illustrating an example of a conventional asymmetrical actuator for an optical pickup.

In relation to 1 For example, the conventional asymmetric actuator for an optical pickup includes a wing 2 with an objective lens 1 Located on one side thereof, a variety of cables 6 and a magnetic circuit. One end of each of the multitude of cables 6 is with the wing 2 connected and the other end is on a holder 3 attached to a base 9 is provided so that all the components of a moving unit including the grand piano 2 in terms of the base 9 in a focusing direction F and a tracking direction T. The magnetic circuit thus moves the moving unit in the focusing direction F and the tracking direction T.

The magnetic circuit includes focusing coils 4 and tracking coils 5 on the wing 2 attached are a pair of magnets 7 that works by interacting with a current passing through the focusing coils 4 and the tracking coils 5 flows, generates an electromagnetic force for moving the moving unit, and a bracket 8th ,

When a current to the focus coils 4 and the tracking coils 5 is applied, due to the interaction of the focus in the coils 4 and the tracking coils 5 flowing current and the magnetic flux of the magnets 7 generates an electromagnetic force acting on the focusing coils 4 and the tracking coils 5 acts and thus moves the moving unit in the focusing direction F and the tracking direction T. The one on the wing 2 placed objective lens 1 moves accordingly in the focusing direction F and the tracking direction T.

However, in the conventional asymmetric actuator for an optical pickup, since the coil, in particular the focus coils 4 , in direct contact with the wing 2 stands or stand, where the objective lens 1 attached, heat is generated by applying power to the coils 4 and 5 is generated, directly on the wing 2 and the objective lens 1 transferred, reducing the stiffness of the wing 2 is reduced. Thus, the performance of a conventional asymmetric actuator design for an optical pickup is degraded, thereby changing the performance of the controller and the objective lens 1 gets damaged.

In particular, it is relatively difficult to dissipate heat from a slim optical recording and / or reproducing apparatus because the corresponding actuator is disposed inside an optical scanner and because the size of the resulting optical scanner is smaller than other asymmetric optical scanner constructions not portable devices. Because the coils 4 and 5 acting directly as a heat source for the moving unit when in the wing 2 are attached, the rigidity of the wing 2 at least due to the temperature problem inside portable devices such as a notebook computer. Thus, the performance of a conventional construction of the actuator of an optical pick-up deteriorates so much that the performance of the tracking and focusing control is changed.

For example, according to this conventional optical pickup actuator structure, prior to the application of current, there is a second resonant frequency of about 20 kHz. The second Reso However, the frequency decreases to about 10 kHz, because the stiffness of the wing 2 is reduced after power is applied and heat is generated.

amendments the efficiency the control due to heat, as described above, are the cause of much of product defects.

Further, according to this conventional optical pickup actuator structure, the coils 4 and 5 are attached to the moving unit, in addition to the required additional soldering process, a plurality of components such as a printed circuit board (PCB) 10 as well as the cables 6 for the electrical connection to the wing 2 be attached to power to the coils 4 and 5 to lead.

There a height of the slim actuator for an optical pickup can be about 4 to 5 mm, that must Soldering in a range of thickness of 1 mm or less.

Therefore must the soldering process done manually which reduces mass productivity in the manufacture of the actuator of the optical scanner is limited.

Further elevated the error rate of the actuator including large deviations between actuator assemblies for one optical pickup as a result of at least the manual soldering process.

Further Six cables are required to have one actuator for one optical scanner for a triaxial movement in a focusing direction, a tracking direction and to drive a radial tilting direction. The actuator for one However, optical scanner is spatial limited, which makes it difficult to get the required variety of cables too to install. In this scale, As the number of cables increases, the process of installing becomes the cables more difficult, whereby the error rate of the actuator increases.

Moreover, in a conventional optical pickup actuator, only about one fourth of a total length of the focus coils becomes 4 actually used to control the actuator. The unnecessary part of the focus coils 4 Also prevents the size of the actuator is reduced, and increases the asymmetry of the actuator.

The document US 2002/054559 discloses an actuator for an optical scanner according to the preamble of claim 1.

According to the present The invention provides an apparatus and a method, as in the attached claims explained. Preferred features of the invention are defined in the dependent claims and the following description.

embodiments of the present invention provide an actuator for a optical scanner, where the performance of a moving Unity not due to heat is reduced, even if a slim actuator for an optical Scanner is used, and compared to conventional miniaturized optical scanners with significantly reduced error rates can be justified at least through the easier manufacture of the optical scanner, and an optical recording and / or transfer device and a method of using the same.

Further Objects and / or advantages of the invention will be set forth in part in the following Described description and are partially apparent from the description or can be learned by applying the invention.

at In one aspect of the present invention, an actuator for a provided with an optical lens, comprising a wing with an objective lens, a variety of suspensions, which at one end with the wing are connected and attached at another end to a holder which is provided on one side of a base comprises, so that the suspensions the wing movably carry, are a first and a second coil element mounted separately from each other at the base, characterized that a magnetic element between the first and the second coil element on the wing is appropriate.

In another aspect of the present invention, there is provided an optical recording and / or reproducing apparatus comprising an optical pickup having an actuator for driving an objective lens movably mounted in a radial direction of a recording medium and recording information on the recording medium and / or from the recording medium, and a controller controlling a focusing servo and a tracking servo of the optical pickup, wherein the optical pickup actuator comprises a wing having an objective lens, a plurality of suspensions disposed at one end are connected to the wing and secured at another end to a holder provided on one side of a base, so that the suspensions carry the wing movably, a first and a second coil element are of mounted separately on the base, characterized in that a magnetic element between the first and the second coil element is mounted on the wing.

Also according to the present invention, there is provided a method of operating an optical scanner comprising moving a blade containing a lens in a tracking and / or focusing direction, the blade being supported by a plurality of suspensions (Figs. 36 ), which is at one end with the wing ( 32 ) and at another end to a holder which is on one side of a base ( 30 ) are attached, so that the suspensions ( 36 ) the wing ( 32 ) movable; characterized in that the method comprises driving a coil system comprising a first and a second coil element, which are separated from each other and from the wing (Fig. 32 ) are separated, so that an interaction with a magnet on the wing ( 32 ) between the first and the second coil element, the movement of the wing ( 32 ) in the tracking and / or focusing direction.

Also according to the present Invention provides a recording and / or reproducing method, the recording of an electrical signal stored for or data to be stored representative is on a recording medium and performing the above method for operating an optical scanner includes recording data on the recording medium and / or reproducing data from the recording medium control the electrical signal as the stored data is registered to generate when the rendering process is performed, or on the basis of the electrical signal, data on the recording medium to save when the recording process is being performed.

For a better one understanding of the invention and for Fig. 12 is an illustration of the realization of the embodiments thereof in the following example by way of the attached schematic drawings Reference is made in which:

1 Fig. 12 is a perspective view schematically illustrating an example of a conventional asymmetrical actuator for an optical pickup;

2 Fig. 12 is an exploded perspective view schematically illustrating an actuator for an optical pickup according to an embodiment of the present invention;

3 Fig. 12 is a plan view of main parts of the actuator of the optical pickup 2 ;

4 Fig. 12 is an exploded perspective view schematically illustrating an actuator for an optical pickup according to another embodiment of the present invention;

5 only exposes a part of the coils in the actuator for an optical pickup 4 group; and

6 Fig. 12 schematically illustrates an optical recording and / or reproducing apparatus using an optical pickup actuator according to another embodiment of the present invention.

One Actuator for an optical scanner according to a embodiment The present invention has a configuration in which Magnetic element is mounted in a moving unit, as well Coils, and at a base is an electrical structure for applying a drive current provided to the coils, so that the structure the moving unit is simple, problems due to Heat not on and the manufacture of the actuator of the optical scanner is simple.

2 Fig. 12 is an exploded perspective view schematically illustrating an actuator for an optical pickup according to an embodiment of the present invention, and Figs 3 Fig. 12 is a plan view of main parts of the actuator of the optical pickup 2 ,

Regarding the 2 and 3 For example, the optical pickup actuator includes a wing 32 , a first and a second coil element 35 and 34 , a single magnetic element 37 as well as a variety of suspensions 36 , The wing 32 is at a base 30 movably mounted and an objective lens 31 is attached to one side of it. The first and the second coil element 35 and 34 become so at the base 30 attached, that they are separated from each other. The single magnetic element 37 is on the wing 32 attached to between the first and the second coil element 35 and 34 to be arranged. Each of the variety of suspensions 36 is at one end on the wing 32 attached and at the other end to a holder 33 attached to one side of the base 30 is provided so that the wing 32 in terms of the base 30 can move. The variety of suspensions 36 carries the wing 32 movable in relation to the base 30 ,

The actuator for an optical scanner is of an asymmetric type in which a drive axis of the actuator of the optical pickup and an optical axis of the objective lens 31 are arranged differently from each other. The objective lens 31 is mounted in an installation hole on one side of the wing 32 is trained. An installation part 32a is in the wing 32 formed around the first and the second coil element 35 and 34 and the magnetic element 37 opposite the objective lens 31 install.

The installation part 32a is of a continuous structure, wherein the magnetic element 37 through the installation part 32a of the grand piano 32 between the first and the second coil element 35 and 34 can be attached, and the first coil element 35 can be inside the installation part 32a be attached. Furthermore, the installation part 32a designed so that a part of it is the magnetic element 37 directly positioned so that it the first and the second coil element 35 and 34 is opposite.

The optical pickup actuator includes a magnetic circuit including the first and second coil elements 35 and 34 and the magnetic element 37 includes.

That is, the first and second coil elements 35 and 34 are based 30 separated from each other, wherein the magnetic element 37 in the wing 32 between the first and the second coil element 35 and 34 is appropriate.

Each of the first and second coil elements 35 and 34 can be used as tracking coils and the other can be used as focus coils. As an example in the 2 and 3 becomes the first coil element 35 that is between the objective lens 31 and the magnetic element 37 positioned as a tracking coil, and the second coil element 34 that's outside the wing 32 is positioned is used as a focus coil. The first and the second coil element 34 and 35 are driven in the focusing direction F and the tracking direction T, so that a biaxial movement is possible. Furthermore, the first and the second coil element 35 and 34 Bulk-type coils (bulk-type coils), as in the 2 and 3 shown.

The 2 and 3 FIG. 12 illustrates an example of a magnetic circuit that can be applied to the optical pickup actuator according to an embodiment of the present invention. However, the actuator for an optical scanner is not on the in the 2 and 3 illustrated magnetic circuit limited. In the optical pickup actuator according to embodiments of the present invention, a polarization structure of the magnetic element 37 and a type and a driving method of the first and the second coil element 35 and 34 be modified.

That is, a surface polarizing magnet having different polarization structures may be used as the magnetic element 37 be used. A Fine Pattern Coil (FPC) of variable shape and arrangement with respect to the different polarization structures of the magnetic element 37 can also be used as the first and the second coil element 35 and 34 be used.

The optical pickup actuator according to an embodiment of the present invention as shown in Figs 4 and 5 In addition, a pair of tilt drive coil elements may include a triaxial motion for driving the objective lens 31 perform in the focusing direction F, the tracking direction T and a radial tilt direction Run.

4 Fig. 12 is an exploded perspective view schematically illustrating an actuator for an optical pickup according to another embodiment of the present invention, and Figs 5 only exposes the coils in the actuator of the optical scanner 4 in the 4 and 5 the reference numbers are the same as the 2 and 3 for the same corresponding items that will not be described again.

It is preferable that a pair of tilt drive coil elements 44 and 45 under a second coil element 34 can be arranged, this may be, for example, the focus coil. Here, in one case, when the first and second coil elements 35 and 34 and the pair of bulk type tilting drive coil elements, the optical pickup actuator may be formed by changing only one shape of a winding yoke to the second coil element 34 and install the pair of tilt drive coil elements.

The actuator for an optical pickup may also have a polarization structure of a magnetic element 37 and the coil elements 34 and 35 be modified.

In the optical pickup actuator according to embodiments of the present invention, wherein the magnetic member 37 in the wing 32 between the first and the second coil element 35 and 34 attached, the wing can 32 have a simple structure, as the wing 32 may be formed in a shape in which a rear part of the wing 2 is removed, for attaching the focusing coils 4 the conventional actuator for an optical pickup, as in 1 is asked, needed. In addition, the simple structure causes a high second resonant frequency and a reduced size of the moving unit, including the wing 32 , whereby the overall size of the actuator of the optical scanner is reduced.

The suspensions 36 are attached to a lateral surface which is different from a lateral surface on which the magnetic circuit of the wing 32 is arranged. The suspensions of the conventional optical pickup actuator are used for the electrical connection, the suspensions 36 however, according to the present invention, only a function of movably supporting the moving unit, including the wing 32 , in terms of the base 30 fulfill. So there is no soldering process for attaching the suspension 36 on the wing 32 is required, a method for manufacturing the actuator for an optical pickup according to the present invention can be considerably simplified as compared with the conventional actuator for an optical pickup.

Although the optical pickup actuator according to this embodiment of the present invention has four suspensions 36 includes, as in the 2 and 4 shown, the number of suspensions 36 can also be changed to two or six or more.

The optical pickup actuator according to embodiments of the present invention, wherein the magnetic element 37 on the wing 32 is attached and the first and the second coil element 35 and 34 at the base 30 on opposite sides of the magnetic element 37 attached have at least the following advantages.

First, since a magnetic drive method is used in which only the magnetic element 37 the magnetic circuit on the wing 32 is attached deteriorates the constructive performance of the wing 32 not, causing the objective lens 31 protected from damage due to heat.

Furthermore, the coil elements 34 . 35 . 44 and 45 at the base 30 are attached, the soldering process for the electrical connection with respect to the moving unit is unnecessary, which is required in the conventional actuator for an optical scanner. Of course, a soldering process and cable connection work are required for the electrical connection, so that a drive current to the coil elements 34 . 35 . 44 and 45 can be created. However, since the coil elements 34 . 35 . 44 and 45 in the base 30 attached are at the base 30 there is enough space to easily perform the above soldering without the need for manual soldering. The size, height and the like of the solder joint are also not significantly limited. Thus, the soldering process can be performed automatically instead of the conventional manual soldering process. Alternatively, in embodiments of the present invention, poor soldering seldom occurs even if the soldering process is performed manually. Thus, in the optical pickup actuator according to the present invention, an error rate can be significantly reduced. Furthermore, the optical scanning method can be significantly improved. Since no additional components or methods for electrical connections with respect to the moving unit are necessary, automatic production of the optical pickup actuator with an integral injection method is possible. Thus, in an additional embodiment, the optical pickup actuator may be produced with an integral injection method.

Because the suspensions 36 only the function of movably supporting the moving unit, including the sash 32 , in terms of the base 30 must meet and not be used for an electrical connection, the suspensions 36 only with the wing 32 get connected. The movement of the actuator of the optical pickup according to embodiments of the present invention can be easily changed to biaxial motion (movement in a focusing direction and a tracking direction) or to a triaxial motion by only the polarization structure of the magnetic element 37 and / or the winding pattern of the coil elements must be changed without the number of suspensions 36 must be changed.

Since an unnecessary part of the focus coil element of the conventional asymmetrical slim actuator for an optical pickup can be removed, so that the length of the blade 32 is decreased, the second resonance frequency increases as well.

The magnetic element 37 , which is heavier than the coil elements, is in the wing 32 appropriate. The printed circuit board, for example a soldering part with at least 8 points, if it is not moved in a tilting direction, or at least 12 points, if it is moved in a tilting direction, as well as a part for guiding the Fokussierspulenelementes the wing that for the moving unit of the conventional optical pickup actuator are not necessary in embodiments of the present invention. Thus, the moving unit can be formed not heavier than the moving unit of the conventional actuator for an optical pickup.

6 Fig. 12 schematically illustrates an optical recording and / or reproducing apparatus using an optical pickup actuator according to an embodiment of the present invention.

In relation to 6 For example, the optical recording and / or reproducing apparatus includes a spindle motor 55 for rotating an optical information storage medium, for example an optical disc D, an optical scanner 50 which is movably mounted in a radial direction of the optical disk D and records information on and / or reproduces from the optical disk D, a drive unit 57 for driving the spindle motor 55 and the optical scanner 50 and a controller 59 for controlling a focusing servo, a tracking servo, and / or a tilt servo of the optical pickup 50 , Here is the reference number 52 a turntable and reference number 53 denotes a clamp for clamping the optical disk D.

The optical scanner 50 includes an optical system that is an objective lens 31 which concentrates the light emitted from a light source onto the optical disk D, and an actuator for an optical pickup for performing a biaxial movement or a triaxial movement of the objective lens 31 , The optical pickup actuator uses the optical pickup actuator according to embodiments of the present invention.

Light reflected from the optical disc D is detected by a photodetector included in the optical pickup 50 is provided, photoelectrically converted and registered as an electrical signal. The electrical signal is transmitted via the drive unit 57 into the controller 59 entered. The drive unit 57 controls a speed of the spindle motor 55 , amplifies the input electrical signal and drives the optical pickup 50 at. The control 59 sends commands for the focus servo, tracking servo commands, and / or tilt servo commands based on that from the drive unit 57 inputted electrical signal, again to the drive unit 57 such that a focus mode, a tracking mode and / or a tilt mode of the optical pickup 50 can be performed.

There, As described above, the actuator for an optical pickup according to embodiments of the present invention uses a magnetic element driving method in which a coil element serving as a heat generating unit is used, is separated from a moving unit, becomes the efficiency the moving unit does not decrease due to heat even then if the actuator is of the slender kind.

There Further, the number of magnetic elements reduced from two to one and there is part of the wing, in the conventional Focusing coil element due to the asymmetric structure of the Actuator of the optical scanner is required to be removed can, can the length the wing reduced be, causing the weakness conventional Systems overcome which has a reduced, second resonant frequency, when the resulting size of the actuator of the optical scanner is reduced.

Furthermore are in the conventional actuator for one optical scanner the necessary procedures for attaching the Coil elements and cables in the moving unit difficult, thereby Numerous methods for producing the actuator for a optical scanner are required, resulting in a high error rate results. However, according to embodiments the present invention components for the electrical connection and for a power drive away from the moving unit and are attached in the base and there a process to electrical Connecting the components performed in the base is the manufacture of the optical pickup actuator easily and the error rate can be considerable be reduced.

Consequently is the actuator for an optical scanner according to embodiments of the present invention of an asymmetrical nature and small enough that he is in a slim, optical recording and / or reproducing device can be used. The efficiency of the actuator of the optical Scanner is substantially superior to those of conventional actuators, there problems due to heat not be generated.

Even though some preferred embodiments shown and described, it is for ordinary people Experience in the field of technology recognizable that various changes and modifications can be made to it without departing from the scope of Invention as in the appended claims defined, depart.

Claims (19)

An optical pickup actuator comprising: a blade ( 32 ) with an objective lens ( 31 ); a variety of suspensions ( 36 ), which at one end with the wing ( 32 ) and at another end to a holder which is on one side of a base ( 30 ) are attached, so that the suspensions ( 36 ) the wing ( 32 ) movable; a first and a second coil element ( 34 . 35 ) separated from each other at the base ( 30 ) are attached; characterized in that a magnetic element ( 37 ) between the first and the second coil element ( 34 . 35 ) on the wing ( 32 ) is attached. An optical pickup actuator according to claim 1, wherein one of said first and second coil elements (Figs. 34 . 35 ) a focusing coil element ( 34 ), the other being a tracking coil element ( 35 ). An optical pickup actuator according to claim 1 or 2, further comprising a pair of tilt drive coil elements (10). 44 . 45 ). An optical pickup actuator according to claim 3, wherein said pair of tilt drive coil elements ( 44 . 45 ) under one of the first and second coil elements ( 34 . 35 ) acting as the focus coil element ( 34 ) is used. An optical pickup actuator according to any one of claims 1 to 4, wherein the magnetic element ( 37 ) is a surface polarization magnet. An optical pickup actuator according to any one of claims 1 to 5, wherein said first and second coil elements ( 34 . 35 ) Are fine structure coils (FPC). Optical recording and / or reproducing apparatus, comprising: an optical scanner ( 50 ), which comprises an actuator according to claim 1 for driving an objective lens ( 31 ) and is movably mounted in a radial direction of a recording medium, and records and / or reproduces information on the recording medium from the recording medium; and a controller ( 59 ) comprising a focusing servo and a tracking servo of the optical pickup (Figs. 50 ) controls. An optical recording and / or reproducing apparatus according to claim 7, wherein one of said first and second coil members (Figs. 34 . 35 ) a focusing coil element ( 34 ), the other being a tracking coil element ( 35 ). An optical recording and / or reproducing apparatus according to claim 7 or 8, further comprising a pair of tilt drive coil elements (10). 44 . 45 ). An optical recording and / or reproducing apparatus according to claim 9, wherein said pair of tilting drive coil elements ( 44 . 45 ) under one of the first and second coil elements ( 34 . 35 ) acting as the focus coil element ( 34 ) is used. Optical recording and / or reproducing apparatus according to any one of claims 7 to 10, wherein the magnetic element ( 37 ) is a surface polarization magnet. An optical recording and / or reproducing apparatus according to any one of claims 7 to 11, wherein said first and second coil elements ( 34 . 35 ) Are fine structure coils (FPC). A method of operating an optical scanner, comprising: moving a wing ( 32 ) containing a lens in a tracking and / or focusing direction; the wing of a variety of suspensions ( 36 ), which is at one end with the wing ( 32 ) and at another end to a holder which is on one side of a base ( 30 ) are attached, so that the suspensions ( 36 ) the wing ( 32 ) movable; characterized in that the method comprises: driving a coil system comprising a first and a second coil element, which are separated from each other and from the wing ( 32 ) are separated, so that an interaction with a magnet on the wing ( 32 ) between the first and the second coil element moving the wing ( 32 ) controls in the tracking and / or the focusing direction. An optical scanning method according to claim 13, wherein the coil system comprises a focus coil element ( 34 ) located at a base ( 30 ) separated from the movable wing ( 32 ) and with the magnet of the wing ( 32 ) cooperates to move the wing ( 32 ) in the focusing direction. An optical scanning method according to claim 13 or 14, wherein the coil system comprises a tracking coil element ( 35 ) located at a base ( 30 ) separated from the movable wing ( 32 ) and with the magnet of the wing ( 32 ) cooperates to move the wing ( 32 ) in the tracking direction. An optical scanning method according to any one of claims 13 to 15, wherein the coil system has focusing and tracking coil elements ( 35 ) located at a base ( 30 ) separated from the bewegli small wings ( 32 ) and with the Mag neten of the wing ( 32 ) to move the wing ( 32 ) in the focusing and tracking directions. An optical scanning method according to any of claims 13 to 16, wherein the coil system supports the wing ( 32 ) drives in an additional radial tilting direction. An optical scanning method according to claim 17, wherein the coil system comprises focusing coil elements ( 34 ), Tracking coil elements ( 35 ) and tilt drive coil elements ( 44 . 45 ), all at a base ( 30 ) separated from the movable wing ( 32 ) and with the magnet of the wing ( 32 ) to move the wing ( 32 ) in the focusing and tracking directions. A recording and / or reproducing method, comprising: registering an electrical signal representative of data stored or stored on a recording medium; and carrying out the method for actuating an optical scanner ( 50 ) according to any one of claims 13 to 18, for controlling the recording of data on the recording medium and / or reproducing data from the recording medium to generate the electrical signal registered as the stored data when the reproducing process is performed or to store data on the recording medium based on the electrical signal when the recording process is performed.